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Internet Info CD-ROM (Walnut Creek) (1993).iso
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8514a.txt
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1993-07-15
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IBM 8514/A
8514/A clones:
ATI 38800-5 (MACH 8), 68800 (MACH 32)
Chips&Tech 82c480
Paradise ??
0102h (R/W): Setup Control Register
bit 0 If set the adapter is enabled, if clear the card is
invisible to the system.
1-7 Reserved(0)
02E8h W(R): Display Status Register
bit 0 SENSE is the result of a wired-OR of 3 comparators, one
for each of the RGB video signal.
By programming the RAMDAC for various values
and patterns and then reading the SENSE, the monitor type
(color, monochrome or none) can be determined.
1 VBLANK. Vertical Blank State
If Vertical Blank is active this bit is set.
2 HORTOG. Horizontal Toggle
This bit toggles every time a HSYNC pulse starts
3-15 Reserved(0)
02E8h W(W): Horizontal Total Register (H_TOTAL)
bits 0-8 Horizontal Total defines the total horizontal scan line width
including the display, blank and sync times.
All horizontal timings are in "double nuggets"
(8 or 10 pixels depending on the state of MEM_CNTL[0]).
The actual value is one latger than this register.
9-15 Reserved(0)
Note: this register is written at 02E8 and read at 26E8h.
02EAh (R/W): DAC Mask Register (DAC_MASK)
bits 0-7 DAC mask. This value is anded to the pixel data before going
to the DAC. Set to 0FFh for normal operation.
Note: In VGA passthrough mode writes to the VGA palette address 03C6h
will go to this address to allow the 8514/A to mirror palette changes.
02EBh (R/W): DAC Read Index Register (DAC_R_INDEX)
bits 0-7 DAC Read Index. Indicates which of the 256 palette entries
will be read by the current sequence of I/O read operations
to the DAC_DATA (02EDh) register.
Note: In VGA passthrough mode writes to the VGA palette address 03C7h
will go to this address to allow the 8514/A to mirror palette changes.
02ECh (R/W): DAC Write Index Register (DAC_W_INDEX)
bits 0-7 DAC Write Index. Indicates which of the 256 palette entries
will be written by the current sequence of I/O write operations
to the DAC_DATA (02EDh) register.
Note: In VGA passthrough mode writes to the VGA palette address 03C8h
will go to this address to allow the 8514/A to mirror palette changes.
02EDh (R/W): DAC DATA Register (DAC_DATA)
bits 0-7 DAC Data.
Note: In VGA passthrough mode writes to the VGA palette address 03C9h
will go to this address to allow the 8514/A to mirror palette changes.
06E8h W(W): Horizontal Displayed Register (H_DISP)
bits 0-7 Number of "double nuggets"-1 displayed in a scan line.
8-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
0AE8h W(W): Horizontal Sync Start Register (H_Sync_STRT)
bits 0-7 Hsync starts at (H_SYNC_STRT +1) double nugget periods.
8-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
0EE8h W(W): Horizontal Sync Width Register (H_SYNC_WID)
bits 0-4 Width of the Horizontal Sync pulse in "double nuggets".
5 Horizontal Sync Polarity (HSYNCPOL).
If set the Horizontal Sync Pulse is Negative, else Positive.
6-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
12E8h W(W): Vertical Total Register (V_TOTAL)
bits 0-2 Vertical Total Adjust (VTADJ).
3-11 Vertical Total Base (VTB).
The Vertical Total is calculated as:
Vertical Total = (Scan Modolus * VTB)+VTADJ+1
Where the Scan Modulus is found from the DBLSCAN and
MEMCFG bits of the DISP_CNTL register (22E8h).
DBLSCAN: MEMCFG: Scan Modulus:
0 0 0 2
0 0 1 4
0 1 0 6
0 1 1 8
1 0 0 4
1 0 1 8
1 1 0 12
1 1 1 16
12-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
16E8h W(W): Vertical Displayed Register (V_DISP)
bits 0-2 Vertical Displayed Adjust (VDADJ)
3-11 Vertical Displayed Base (VDB)
The Vertical Displayed is calculated as:
Vertical Displayed = (Scan Modolus * VDB)+VDADJ+1
Where the Scan Modulus is the same as for
Vertical Total in 12E8h.
12-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
1AE8h W(W): Vertical Sync Start Register (V_SYNC_STRT)
bits 0-2 Vertical Sync Start Adjust (VSADJ)
3-11 Vertical Sync Start Base (VSB)
The Vertical Sync Start is calculated as:
Vertical Sync Start = (Scan Modolus * VSB)+VSADJ+1
Where the Scan Modulus is the same as for
Vertical Total in 12E8h.
12-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
1EE8h W(W): Vertical Sync Width Register (V_SYNC_WID)
bits 0-4 Number of scanlines in the Vertical Sync pulse.
5 Vertical Sync Polarity (VSYNCPOL).
If set the Vertical Sync pulse is Negative, else Positive.
6-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
22E8h W(W): Display Control Register (DISP_CNTL)
bit 0 Odd Bank Enable (ODDBNKENAB).
If set use Horizontally Interleaved banks.
(Normal 8514/A mode).
1-2 Memory Configuration (MEMCFG).
0 NCLK (PS8 Mode)
1 NCLK/2 (Normal 8514/A Mode)
2 NCLK/3
3 NCLK/4
3 (Double Scan) DBLSCAN. If set doublescan is enabled.
4 INTERLACE. Interlace if set.
5-6 Display Enable (DISPEN)
0 = No effect
1 = Enable Hsync, Vsync, Blank, data transfer cycles
and refresh cycles.
2,3 = Disable Hsync, Vsync, Blank, data transfer cycles
and refresh cycles.
7-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
26E8h W(R): Horizontal Total Register (H_TOTAL)
Note: this register is written at 02E8 and read at 26E8h.
2EE8h W(R): Subsystem Control Register (SUBSYS_CNTL)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is written to 48E8h and read from 2EE8h.
42E8h W(R): Subsystem Status Register (SUBSYS_STAT)
bit 0-3 Interrupt requests. THese bits show the state of internal interrupt
requests. An interrupt will only occur if the corresponding bit(s) in
SUBSYS_CNTL is set. Interrupts can only be reset by writing a 1 to the
corresponding Interrupt Clear bit in SUBSYS_CNTL.
Bit 0: VBLNKFLG
1: PICKFLAG
2: INVALIDIO
3: GPIDLE
4-6 MONITORID.
1: IBM 8507 (1024x768) Monochrome
2: IBM 8514 (1024x768) Color
5: IBM 8503 (640x480) Monochrome
6: IBM 8512/13 (640x480) Color
7 8PLANE.
(CT82c480) This bit is latched on reset from pin P4D7.
8-11 CHIP_REV. Chip revision number.
12-15 (CT 82c480) CHIP_ID. 0=CT 82c480.
42E8h W(W): Subsystem Control Register (SUBSYS_CNTL)
bit 0-3 Interrupt Reset. Write 1 to a bit to reset the interrupt.
Bit 0 RVBLNKFLG Write 1 to reset Vertical Blank interrupt.
1 RPICKFLAG Write 1 to reset PICK interrupt.
2 RINVALIDIO Write 1 to reset Queue Overflow/Data
Underflow interrupt.
3 RGPIDLE Write 1 to reset GPIDLE interrupt.
4-7 Reserved(0)
8 IBLNKFLG. If set Vertical Blank Interrupts are enabled.
9 IPICKFLAG. If set PICK Interrupts are enabled.
10 IINVALIDIO. If set Queue Overflow/Data Underflow Interrupts are enabled.
11 IGPIDLE. If set Graphics Engine Idle Interrupts are enabled.
12-13 CHPTEST. Used for chip testing.
14-15 Graphics Processor Control (GPCTRL).
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is written to 48E8h and read from 2EE8h.
46E8h W(W): ROM Page Select Register (ROM_PAGE_SEL)
bit 0-2 Maps a 4KB page of the onboard 32K ROM to address C7000h-C7FFFh.
3 VGA Enable. If set enables the VGA
This bit is not implemented in the 8514/A, but in the VGA controller.
4 VGA Setup. If set the VGA is in Setup mode.
This bit is not implemented in the 8514/A, but in the VGA controller.
5-15 Reserved(0)
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
4AE8h W(W): Advanced Function Control Register (ADVFUNC_CNTL)
bit 0 DISABPASSTHRU. If clear the VGA video is passed through the
8514/A RAMDAC, if set the 8514/A video is passed to the 8514/A RAMDAC.
1 RSDV0. Reserved bit 0 = 1.
2 Clock Select (CLKSEL).
If set a clock of 44.900MHz is used (1024x768 interlaced)
if clear a clock of 25.175MHz is used (640x480).
The CT82c480 supports 8 clock frequencies through the
Extended Configuration Register EC3 (5EE8h).
3 RSDV1. Reserved bit 1 =0.
4-15 Reserved(0).
Note: In the 8514/A this register is Writeonly,
In the Chips&Tech 82c480 it is Read/Write.
52E8h W(R/W): Extended Configuration Register (EC0) (CT82c480 only)
bit 0-15 Reserved.
56E8h W(R/W): Extended Configuration Register (EC1) (CT82c480 only)
bit 0-15 Reserved.
5AE8h W(R/W): Extended Configuration Register (EC2) (CT82c480 only)
bit 0-2 Reserved(1)
3-4 ROMBASE. Latched on reset from P4D3-4.
Determines start address of ROM:
8K ROM 32K ROM
MC ISA MC ISA MC =Micro Channel
0 0C8000 C6000 0D0000 D0000
1 0D8000 D8000 0D8000 D8000
2 0C0000 C0000 0C0000 C0000
3 0C6000 C8000 0C8000 C8000
5 ROMSIZE. Latched on reset from P4D5.
If set the ROM is 8K, if clear the ROM is 32K.
6 ROMPAGING. Latched from P4D6 on reset.
If set the ROMPG pins are outputs, if clear they are inputs.
7 8 Bit planes (8BP).
8-9 BANKS. Number of VRAM banks.
0=1 bank, 1=2 banks, 2=3 banks, 3=4 banks.
10 If set 256Kx4 VRAMs are used, if clear 64Kx4 VRAMs.
Sampled from MA8 on reset.
11 5-Pixel Nuggets (5PN).
Latched from WE4/ on reset.
Determines whether there are 4 or 5 pixels to a nugget.
12 Reserved(0)
13 8-bit DAC Control (8BITDAC).
If set the RAMDAC is 8bit rather than 6bit.
On reset the 8BITDAC pin is sampled, then the pin
turns into an output driven by this bit.
This can be used to switch a DAC with 6/8bit ability
like an IMSG178 or BT478 between 6 and 8 bits.
14-15 Reserved(0)
5EE8h W(R/W): Extended Configuration Register (EC3) (CT82c480 only)
bit 0-3 Selects which registers will be read from BEE8h.
4 Alternate High Register Select (AHRS).
If set writes to video timing registers
will go the the Alternate-High register set.
5 Alternate Low Register Select (ALRS).
If set writes to video timing registers
will go the the Alternate-Low register set.
6 Alternate High Register Enable (AHRE).
If set enables the Alternate High-resolution video
timing register set.
7 Alternate Low Register Enable (ALRE).
If set enables the Alternate Low-resolution video
timing register set.
8-10 Clock Select 0-2 (CLKSEL0-2).
The CT82c480 maintains 3 different clock select register sets.
On set each for Alternate High, Alternate Low and normal video.
11 Reserved(0)
12 OVERRIDE. If set the normal video register set is used.
If clear the AHRE and ALRE determines the video register set used.
This bit is reset on any write to the ADVFUNC_CTRL register (4AE8h).
13-15 Reserved(0)
Note: Writes to this register should be 8-bit.
82E8h W(R/W): Current Y Position Register (CUR_Y)
bit 0-11 Y Position. Y coordinate of current position in pixels.
12-15 Reserved(0)
86E8h W(R/W): Current X Position Register (CUR_X)
bit 0-11 X Position. X coordinate of current position in pixels.
12-15 Reserved(0).
Note: In 5PN mode bits 11, 1 and 0 are remainder bits,
bits 2-10 are the current X position modulo 5.
8AE8h W(R/W): Destination Y Position & Axial Step Constant Register (DESTY_AXSTP)
bit 0-11 During BITBLT operations this is the Y coordinate of the
destination in pixels.
During Line Drawing, this is the Bresenham constant 2*dminor.
(dminor is the length of the line projected onto
the minor or dependant axis).
12 AXSTPSIGN. Sign bit for Axial Step Constant.
Should be 0 during BITBLT operations.
13-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
8EE8h W(R/W): Destination X Position & Diagonal Step Constant Register (DESTX_DISTP)
bit 0-11 During BITBLT operations this is the X coordinate of the
destination in pixels.
During Line Drawing this is the Bresenham constant 2*dminor-2*dmajor.
(dminor is the length of the line projected onto
the minor or dependant axis, dmajor is the length of the
line projected onto the major or independent axis)
12 DGSTPSIGN. Sogn bit for Diagonal Step Constant
(Should be set to 0 for BITBLT operations).
13-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
92E8h W(R/W): Error Term Register (ERR_TERM).
bit 0-12 Initial Error Term.
This register is programmed to the Bresenham initial
error term before a line drawing command is issued.
13-15 Reserved. These bits are read/writable but have no function.
96E8h W(R/W): Major Axis Pixel Count & Rectangle Width Register (MAJ_AXIS_PCNT)
bit 0-10 For BITBLT and rectangle commands this is the width of the area.
For Line Drawing this is the Bresenham constant dmajor.
Must be positive.
11-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
9AE8h W(R): Graphics Processor Status Register (GP_STAT)
bit 0-7 Queue State.
00h = 8 words available - queue is empty
01h = 7 words available
03h = 6 words available
07h = 5 words available
0Fh = 4 words available
1Fh = 3 words available
3Fh = 2 words available
7Fh = 1 word available
FFh = 0 words available - queue is full
8 DATARDY. If set data is ready to be read from
the PIX_TRANS register (E2E8h).
9 Graphics Processor Busy (GPBUSY)
If set the Graphics Processor is busy.
10-15 Reserved(0)
9AE8h W(W): Command Register (CMD)
bit 0 WRTDATA. If set VRAM write operations are enabled.
If clear operations execute normally but no writes
to memory is performed.
1 PLANAR defines the orientation of the display bitmap.
0=Through plane mode, 1=Across plane mode.
2 If set the last pixel of a line command (CMD_LINE, SSV or
LINEAF) is not drawn. This is used for mixes such as XOR
where drawing the same pixel twixe would give the wrong color.
For rectangle commands the effect is different depending on the
INC_X and INC_Y fields:
CMD_RECT
If INC_X is set then the rightmost coloumn is not drawn,
if clear the leftmost coloumn is not drawn.
CMD_RECTV1
If INC_Y is set the bottom row is not drawn,
if clear the top row is not drawn.
CMD_RECTV2
No effect
CMD_BITBLT
If INC_X set the rightmost coloumn is not drawn,
if clear the leftmost coloumn is not drawn.
3 LINETYPE
4 DRAW. If clear the current position is moved, but no pixels
are modified. This bit should be set when attempting read or
write of bitmap data.
5-7 LINEDIR. When a line draw command (CMD_LINE) with LINETYPE=1
is issued, these bits define the direction of the line
counterclockwise relative to the positive X-axis.
0 = 000 degrees
1 = 045 degrees
2 = 090 degrees
3 = 135 degrees
4 = 180 degrees
5 = 225 degrees
6 = 270 degrees
7 = 315 degrees
5 INC_X. This bit together with INC_Y determines which quadrant
the slope of a line lies within. They also determine the
orientation of rectrangle draw commands.
If set lines are drawn in the positive X direction (left to right).
6 YMAJAXIS. For Bresenham line drawing commands this bit determines
which axis is the independent or major axis. INC_X and INC_Y
determines which quadrant the slope falls within. This bit further
defines the slope to within an octant.
If set Y is the major (independant) axis.
7 INC_Y. This bit together with INC_X determines which quadrant
the slope of a line lies within. They also determine the
orientation of rectrangle draw commands.
If set lines are drawn in the positive Y direction (down).
8 (Pixel Data Enable) PCDATA.
If set the drawing engine waits for read/write of the PIX_TRANS
register (E2E8h) for each pixel during a draw operation.
9 16BIT. If set the PIX_TRANS register (E2E8h) is processed
internally as two bytes in the order specified by BYTSEQ.
If clear all accesses are 8bit.
10-11 Reserved(0)
12 Byte Sequence (BYTSEQ). Affects both reads and writes of
SHORT_STROKE (9EE8h) and PIX_TRANS (E2E8h) when 16bit=1.
If set take low byte first, if clear take high byte first.
13-15 Draw Command:
0 = CMD_NOP. (Should be used for Short Stroke Vectors).
1 = CMD_LINE
2 = CMD_RECT (Fill rectangle in X direction)
3 = CMD_RECTV1 (Fill rectangle in Y direction)
4 = CMD_RECTV2 (Fast filled Y direction rectangle)
5 = CMD_LINEAF (Outline)
6 = CMD_BITBLT (Copy rectangle)
7 = illegal
9EE8h W(R/W): Short Stroke Vector Transfer Register (SHORT_STROKE)
bit 0-3 Length of vector projected onto the major axis.
This is also the number of pixels drawn.
4 Must be set for pixels to be written.
5-7 VECDIR. The angle measured counter-clockwise from horizontal
right) at which the line is drawn,
0 = 000 degrees
1 = 045 degrees
2 = 090 degrees
3 = 135 degrees
4 = 180 degrees
5 = 225 degrees
6 = 270 degrees
7 = 315 degrees
8-15 The lower 8 bits are duplicated in the upper 8 bits so two
short stroke vectors can be drawn with one command.
Note: The upper byte must be written for the SSV command to be executed.
Thus if a byte is written to 9EE8h another byte must be written to
9EE9h before execution starts. A single 16bit write will do.
If only one SSV is desired the other byte can be set to 0.
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
A2E8h W(W): Background Color Register (BKGD_COLOR)
bit 0-7 Background Color. This is the color used for writing pixels
where the Foreground Color Mix is selected and FSS=0, or the
Background Color Mix is selecte and BSS=0.
8-15 Reserved(0)
Note: During drawing commands reading this register is equivelent to
reading the PIX_TRANS register (E2E8h).
This register is writable when GPBUSY=DATARDY=0 or when PCDATA=0.
Otherwise during drawing commands with PCDATA=1 a write to A2E8h
functions as a write to the PIX_TRANS register.
A6E8h W(W): Foreground Color Register (FRGD_COLOR)
bit 0-7 Foreground Color. This is the color used for writing pixels
where the Foreground Color Mix is selected and FSS=1, or the
Background Color Mix is selecte and BSS=1.
8-15 Reserved(0)
Note: During drawing commands reading this register is equivelent to
reading the PIX_TRANS register (E2E8h).
This register is writable when GPBUSY=DATARDY=0 or when PCDATA=0.
Otherwise during drawing commands with PCDATA=1 a write to A6E8h
functions as a write to the PIX_TRANS register.
AAE8h W(R/W): Write Mask Register (WRT_MASK)
bit 0-7 Writemask. A plane can only be modified if the corresponding
bit is set.
8-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
AEE8h W(R/W): Read Mask Register (RD_MASK)
bit 0-7 Read Mask affects the following commands: CMD_RECT, CMD_BITBLT
and reading data in Across Plane Mode.
Each bit set prevents the plane from being read.
8-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
B2E8h W(R/W): Color Compare Register (COLOR_CMP)
bit 0-7 This is an 8 bit color which is compared to the destination
data during BitBlts. The aritmetric comparison to be used
(<,>,=,true,false, etc..) is specified by the COLCMPO bits
of the PIX_CNTL register.
If the result of the comparison is true, the destination data
is left unchanged.
8-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
B6E8h W(R/W): Background Mix Register (BKGD_MIX)
bit 0-4 Background MIX (BACKMIX).
00 not DST
01 0 (false)
02 1 (tre)
03 2 DST
04 not SRC
05 SRC xor DST
06 not (SRC xor DST)
07 SRC
08 not (SRC and DST)
09 (not SRC) or DST
0A SRC or (not DST)
0B SRC or DST
0C SRC and DST
0D SRC and (not DST)
0E (not SRC) and DST
0F not (SRC or DST)
10 min(SRC,DST)
11 DST-SRC with underflow
12 SRC-DSt with underflow
13 SRC+DST with overflow
14 max(SRC,DST)
15 (DST-SRC)/2 with underflow
16 (SRC-DST)/2 with underflow
17 (SRC+DST)/2 with overflow
18 DST-SRC with saturate
19 DST-SRC with saturate
1A SRC-DST with saturate
1B SRC+DST with saturate
1C (DST-SRC)/2 with saturate
1D (DST-SRC)/2 with saturate
1E (SRC-DST)/2 with saturate
1F (SRC+DST)/2 with saturate
DST is always the destination bitmap, bit SRC has four
possible sources selected by the BSS bits.
5-6 Background Source Select (BSS)
0 BSS is Background Color
1 BSS is Foreground Color
2 BSS is Pixel Data from the PIX_TRANS register (E2E8h)
3 BSS is Bitmap Data (Source data from display buffer).
7-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
BAE8h W(R/W): Foreground Mix Register (FRGD_MIX)
bit 0-4 Foreground MIX (FOREMIX).
Same as BACKMIX in B6E8h.
5-6 Foreground Source Select (FSS)
0 FSS is Background Color
1 FSS is Foreground Color
2 FSS is Pixel Data from the PIX_TRANS register (E2E8h)
3 FSS is Bitmap Data (Source data from display buffer).
7-15 Reserved(0)
Note: In the original IBM 8514/A this register is Write only.
In the CT82c480 it is read/writable
BEE8h W(W): Multifunction Control Register (MULTIFUNC_CTRL)
bit 0-11 Data.
12-15 INDEX. indicates which Multifunction register
will be written with the data in bits 0-11.
Note: Severel registers are placed at BEE8h. When BEE8 is written
the bits 12-15 selects the specific register to receive the write.
Note: In the original IBM 8514/A these registers are write-only.
The CT 82c480 allows reading the registers by writing the index
to bits 0-3 of the Extended Configuration Register 3 (5EE8h)
and then reading BEE8h. Bits 12-15 read are not valid.
BEE8h index 00h W(W): Minor Axis Pixel Count Register (MIN_AXIS_PCNT).
bit 0-10 Height of BITBLT or rectangle command.
Actual height is one larger.
11 Reserved(0)
Note: See note above on reading BEE8h.
BEE8h index 01h W(W): Top Scissors Register (SCISSORS_T).
bit 0-11 Minimum Y coordinate value for the scissors rectangle.
Note: See note above on reading BEE8h.
BEE8h index 02h W(W): Left Scissors Registers (SCISSORS_L).
bit 0-11 Minimum X coordinate value for the scissors rectangle.
Note: See note above on reading BEE8h.
BEE8h index 03h W(W): Bottom Scissors Register (SCISSORS_B).
bit 0-11 Maximum Y coordinate value for the scissors rectangle.
Note: See note above on reading BEE8h.
BEE8h index 04h W(W): Right Scissors Register (SCISSORS_R).
bit 0-11 Maximum X coordinate value for the scissors rectangle.
Note: See note above on reading BEE8h.
BEE8h index 05h W(W): Memory Control Register (MEM_CNTL).
bit 0-1 HORCFG. Xcoordiante divider.
0=4, 1=5, 2=8 and 3=10.
Bit 0 is set if using 5-pixel operations
and bit 1 is set if the VRAMs are interleaved horizontally.
2-3 VRTCFG. VRAM banks.
If using 256KBit banks 0=2 banks and 1=4banks.
If using 1MBit banks 1=1 Bank, 2=2 banks and 3=4 banks.
4 BUFSWP. Used to select planes when in Pseude 8-plane mode.
If set buffer 1 (upper 4 planes) is selected.
If clear buffer 0 (lower 4 planes) is selected.
5-11 Reserved(0)
Note: See note above on reading BEE8h.
BEE8h index 08h W(W): Fixed Pattern Low Register (PATTERN_L).
bit 0-4 Mask low is used to select the mix on a pixel by pixel basis.
If MIXSEL=01 then test pattern registers are used to select
foreground or background mixs. Mask Low applies to even numbered
nuggets (0 is leftmost on the screen).
A 0 selects BACKMIX and a 1 selects FOREMIX.
Bit 4 is pixel 0 and bit 0 is pixel 4 (if in 5PN mode).
5-11 Reserved(0)
Note: See note above on reading BEE8h.
BEE8h index 09h W(W): Fixed Pattern High Register (PATTERN_H).
bit 0-4 Mask low is used to select the mix on a pixel by pixel basis.
If MIXSEL=01 then test pattern registers are used to select
foreground or background mixs. Mask High applies to odd numbered
nuggets (0 is leftmost on the screen).
A 0 selects BACKMIX and a 1 selects FOREMIX.
Bit 4 is pixel 0 and bit 0 is pixel 4 (if in 5PN mode).
5-11 Reserved(0)
Note: See note above on reading BEE8h.
BEE8h index 0Ah W(W): Pixel Control Register (PIX_CNTL).
BIT 0 Intra-Nugget Alignment (INA5PN).
If set BitBlt data in the internal data buffer is aligned on
Modulus 5 basis rather than Modulus 4.
1-2 PLANEMODE.
0 Normal Operation
1 Indeterminate
2 Fill area using RD_MASK as boundary mask.
Does not fill second edge of boundary;
Plane Mask is a mixture of RD_MASK and WRT_MASK.
3 Fill area using WRT_MASK as boundary mask.
Does fill second edge of boundary;
Plane Mask is WRT_MASK (although RD_MASK must be
non-zero for correct operation).
3-5 Color Comparison operation (COLCMPOP).
Determines the comparison performed on each pixel.
0 False (always write DST)
1 true (never write DST)
2 DST >= COLOR_CMP
3 DST < COLOR_CMP
4 DST <> COLOR_CMP
5 DST = COLOR_CMP
6 DST <= COLOR_CMP
7 DST > COLOR_CMP
6-7 Mix Select (MIXSEL).
0 FOREMIX is always used.
1 PATTERN_L,PATTERN_H select mix.
2 Data from PIX_TRANS selects the mix (1=FOREMIX).
3 SRC selects mix (used for transparency during BITBLT).
8-11 Reserved(0)
Note: See note above on reading BEE8h.
E2E8h W(R/W): Pixel Data Transfer Register (PIX_TRANS)
bit 0-15 Data can be read from or written to the display buffer.
In through plane mode (PLANAR=0), bits 0-7 and 8-15 map onto
bit planes 0-7 of an individual pixel.
In across plane mode (PLANAR=1) bits 0-4 and 8-12 map onto pixels
0-4 within a nugget (1 bit per pixel).
Note: The original IBM 8514/A should always be accessed with 16bit read/writes.
Note: The original IBM 8514/A can access this register at A2E8h and A6E8h
during drawing commands.